Date: Sun, 24 Nov 1996 23:06:09 GMT
Server: NCSA/1.5
Content-type: text/html


<body 
background="bgs/resbg
"
text="#000000"
link="#0000FF" vlink="#000088"
>

<html><head><title>Research Page</title></head>

<center>
<table border=3 width=533>
<tr><td width=150 >
<! img src="images/transa17285.gif" ISDATA width=157 height=95
alt="header">
<!WA0><!WA0><!WA0><!WA0><img src="http://gear.mae.cornell.edu/jamal/images/cu_logo150.gif ISDATA alt="logo">
</td>
<td width=324 align=center valign=center>
<font size=+2 color="#C52C32"><b>
RESEARCH HOME PAGE
</b></font>
</td></tr>
</table>
</center>
<br>
<br>


My current research is involved with the modeling and simulation of
multiphase flows. More specifically, I am working on developing 
<!WA1><!WA1><!WA1><!WA1><A HREF = "http://gear.mae.cornell.edu/jamal/res.pgim.html"> spectral
models </A> for fluid-particle interaction 
when the particles are larger than the 
smallest flow scales and much denser than the fluid.
These conditions allow a separation of time- and length-scales 
which makes it feasible to perform meaningful 
<!WA2><!WA2><!WA2><!WA2><A HREF = "http://gear.mae.cornell.edu/jamal/res.dns.html">simulations</A> 
of flow
around single particles in the presence of (initially) isotropic
turbulence. These simulations then provide data for the model coefficients.
In order to efficiently perform these simulations, it was necessary to 
devise an 
<!WA3><!WA3><!WA3><!WA3><A HREF = "http://gear.mae.cornell.edu/jamal/res.ibt.html"> immersed boundary technique</A> 
which did not impose time-step constraints on the code.

<br>
<br>
<center>
<strong>My PhD Research</strong><br>
<table border>
<tr>
<td>
<!WA4><!WA4><!WA4><!WA4><A HREF="http://gear.mae.cornell.edu/jamal/res.ibt.html">
Immersed Boundary Technique</A><br>
</td>
</tr>
<tr>
<td>
<!WA5><!WA5><!WA5><!WA5><A HREF="http://gear.mae.cornell.edu/jamal/res.pgim.html">
Particle-Turbulence Interaction Model</A><br>
</td>
</tr>
<tr>
<td>
<!WA6><!WA6><!WA6><!WA6><A HREF="http://gear.mae.cornell.edu/jamal/res.dns.html">
Direct Numerical Simulations</A><br>
</td>
</tr>
</table>

<br>
<br>
<strong>Other Research Related Links</strong><br>
<table border>
<tr>
<td>
<!WA7><!WA7><!WA7><!WA7><A HREF="http://www.tc.cornell.edu/">Cornell Theory Center</A>
</td>
<td>Where the simulations are performed...</td>
</tr>
<tr><td>
<!WA8><!WA8><!WA8><!WA8><A HREF="http://gear.mae.cornell.edu/jamal/papers.html">List of Papers</a>
</td>
<td>Abstracts and Postscript files...</td>
</tr>
<tr><td>
<!WA9><!WA9><!WA9><!WA9><A HREF="http://gear.mae.cornell.edu/jamal/ms.html">Masters Thesis Research</a>
</td>
<td> Heat transfer in multi-phase flows...</td>
</tr>
</table>
<br>

<br>
<table border=5>
<tr>
<td><!WA10><!WA10><!WA10><!WA10><A HREF="http://gear.mae.cornell.edu/jamal/jamal.html"><b>Home</b></A></td>
<td><!WA11><!WA11><!WA11><!WA11><A HREF="http://gear.mae.cornell.edu/jamal/cv.html"><b>Resume</b></A></td>
<td><!WA12><!WA12><!WA12><!WA12><A HREF="http://gear.mae.cornell.edu/Lumleygroup"><b>Group Research</b></A></td>
<td><!WA13><!WA13><!WA13><!WA13><A HREF="http://gear.mae.cornell.edu/index.html"><b>Cornell CFD</b></A></td>
<td><!WA14><!WA14><!WA14><!WA14><A HREF="http://gear.mae.cornell.edu/jamal/misc.html"><b>Misc.</b></A></td>
</tr>
</table>
</center>

</html>

